International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395-0056
Volume: 05 Issue: 09 | Sep 2018
p-ISSN: 2395-0072
www.irjet.net
IMPROVING THE LOAD CARRYING CAPACITY OF SQUARE FOOTING RESTING ON GEOGRID REINFORCED SAND Maruthi1, Vijay Kumar G2 1Graduate
student, Department of civil engineering Navodaya institute of technology (NIT) Raichur-584103. Professor, Department of civil engineering Navodaya institute of technology (NIT) Raichur-584103. ------------------------------------------------------------------------------***----------------------------------------------------------------------------2Assistant
Abstact- The foundations of assorted structures area unit subjected to serious loading. This project presents the results of laboratory model tests on square footings supported on geogrid strengthened sand bed below loading conditions for various densities of sand bed and U/B ratio. The load applied on the footing to judge the response of a sq. footing against load. The impact of sand for the density 1.445 g/cc, 1.490 g/cc, and 1.496 g/cc and for various U/B ratio of 0.2, 0.4, and 0.6 were investigated on ultimate bearing capacity that is increased by increasing the density of sand and with the rise of U/B ratio up to 0.4 The results of ultimate bearing capacity for reinforced sand is more than unreinforced sand bed.
shear failure happens in comparatively compressible soil. The failure is amid visible sheared zone when bulging has taken place. Punching shear failure takes place because of the comparatively nice squeezability of soil and will be evaluated by decisive the rigidity index of the soil. 1.1 Mechanism of reinforcement
Key Words: Sand, Ultimate load, Settlement, Geogrid reinforcement, U/B ratio.
Randomly directed distinct inclusions added into soil improve its load-deformation behavior by interacting with the soil particles automatically through surface friction and additionally by interlocking. The performance of the bond is to transfer the stress from the soil to the distinct inclusions by mobilizing the strength of separate fibers. Thus, fiber-reinforcement works as resistance and tension resistant part.
1. INTRODUCTION
1.2 Types of Fibres
The lowest a part of a structure is mostly cited because the foundation. It Is perform is to transfer the load of the structure to the soil on that it's resting. A properly designed foundation transfers the load throughout the soil while not overstressing the soil. Overstressing the soil may end up in either excessive settlement or shear failure of the soil, each of that cause harm to the structure. Thus, geotechnical and structural engineers who design foundations should judge the bearing capability of soils. Foundation is that a part of the structure that is in direct contact with the soil and transmits load on to the soil. Before the appliance of load, the soil at a lower place the bottom of the footing is in elastic equilibrium. Because the load is applied settlement occurs that is proportional to the load. With the rise in loading, settlement progressively will increase, and also the soil transforms from the state of elastic equilibrium to plastic equilibrium and so the distribution of soil reaction changes and failure of soil happens. There are three principal modes of shear failure i.e. general shear failure, local shear failure and punching shear failure relying upon the relative squeezability and characteristics of soil. General shear failure happens in comparatively incompressible soil with finite cut strength. The failure is amid wide bulging of on the soil surface. local
Fibers will be classified in 2 main categories synthetic fiber and natural fiber. Varied forms of artificial fibers are nylon, plastic, polypropylene, glass, asbestos, etc. These are typically most well-liked than the natural fibers due to their higher strength and resistance. The assorted forms of natural fiber accessible in India are coir, sisal, jute, hemp, bhabar, munja, bamboo, and banana. So as to reduce the value of the strengthened soil, regionally accessible fibers are thought-about in design. Because of its low strength and lack of sturdiness, natural fibers aren't used wide for reinforcements however are most popular for erosion control as they're eco-friendly.
Š 2018, IRJET
|
Impact Factor value: 7.211
2. EQUIPMENTS AND METHODOLOGY 2.1 General The basic aim of this research is to discover the bearing capacity of reinforced sand bed. So the sand is the basic material which is used in this research work. Tensar Biaxial geogrid is used to reinforcing the sand. Hydraulic static loading machine is used to apply the concentrated load on the mild steel footing which is transferred to sand bed in form of distributed load. Test tank of dimension 60 X 60 X 30 cm is used to prepare the sand bed.
|
ISO 9001:2008 Certified Journal
|
Page 342